Combine



Aug. 15, 1939. A. w. OEHLER HAL 2,169,472.

COMBINE Filed Sept. 5, 1936 6 Sheets-Sheet 1 7 INVENTORS ATTORNEYS.

Aug. 15, 1939.

A. W. OEHLER ET AL COMBINE Filed Sept. 5, 1936 6 Sheets-Sheet 3 0144's 6. Paradise ATTORN EYS A. W. OEHLER ET AL COMBINE Filed Sept. 5, 1936 6 Sheets-Sheet 4 L0 I E g a o 1 a8 9 :r

, 0M0 ATTORNEYS.

Aug. 15, 1939. A. w. OEHLER ET AL COMBINE Filed Sept. 5, 1936 6 Sheets-Sheet 6 3 mm: F 9;

Wm WM 3. am m 5 m m3 T Z 6 2% J W M PATENT OFFICE COMBINE Alvin w. Oehler, Ralph L. Anderson, and Louis A. Paradise, Moline, Ill., assignors to Deere as Company, Mollne, 111., a corporation of Illinols Application septembcr 5, 1936, Serial No. 99,558

'51 Claims.

The present invention relates generally to combined harvester-thresher machines, and is particularly concerned with the provision of a compact, one-man operated machine that is especially adapted for use in relatively small fields and for harvesting many different varieties of crops.

The principal object of the present invention is the provision of novel operating parts and a novel arrangement of parts so as to produce a relatively small compact, yet eflicient, tractoroperated machine that can be easily manipulated in relatively small fields and conveniently controlled by the operator of the tractor propelling the same. .In this connection, it is a further object of the present invention to provide a com-' bine in which the thresher unit is disposed transversely of the line of advance and is carried on two laterally spaced ground wheels that are positioned substantially directly under the thresher unit, and to provide a third point of support for the machine at the forward end of a draft frame which is adapted to be attached to the draw bar or similar part of the tractor. A machine of this character easily and conveniently accommodates afrequent turning of corners, a condition that is met with when using combines and other machines in small fields.

Another object of the present invention is the provision of a compact combine, especially adapted for small fields and one-man operation, in which the machine is provided with wheels having individual axles with a clear space therebetween to accommodate parts of the threshing unit, such as the blower, sieves, and other parts, thereby making it possible to provide a machine that has an exceptionally low center of gravity.

An additional object of the present invention is the provision of a combine having a grain bin that ismounted directly above one end of the thresher unit and connected therewith by means of a grain elevator extending up the rear side of the thresher unit, and discharging into the grain bin. By virtue of this construction, no additional space, either rearwardly of the thresher unit, or forwardly over the draft frame or otherwise, is required as is necessary in other machines of this general character with which we are familiar. A further object, in this connection, is the provision for a grain bin that' can be emptied by gravity through an extensible spout or the like.

In addition, a furtherobject of the present invention is to provide certain improvements in the threshing units and a new and improved while yet capable of handling the required volume of grain.

A further object of the present invention, in

this connection, is the provision of a beater mounted directly above the threshing cylinder,

being particularly arranged so as to engage and move the material along the cylinder substantially at or adjacent the point where the feeder house conveyor delivers material to the threshing cylinder.

Another object of the present invention is the provision of an auxiliary or separating cylinder or stripper positioned after the threshing cylinder, having regard to the direction of movementof the grain, for the purpose of removing straw and the like that has beenoperated upon by said cylinder.

An additional object of the present invention is the provision of a harvesting unit that has a pick-up conveyor made in-two sections, the upper section being immovably fixed to the body of the combine and the lower section being movably connected with the fixed section so that adjustments in height of cutting will not require movement of the entire unit. Also, it is an object of the present'invention to provide improved means for securing the harvester unit to the main frame of the combine so as to facilitate the attachment of the harvester unit. It is, further, an object of the present invention to provide conveying means in the form of a pair of separate canvases arranged side-by-side and with novel overlapping guide means between the two canvases to prevent grain from lodging therebetween,

In addition, another object of the present instantially vertical adjustment relative to the aforesaid, cutting mechanism, and it is also a particular object of the present invention to provide-improved reel adjusting means carried on the means that raises and lowers the adjustable part of the platform that carries the cutting mechanism. By virtue of these features, the entire control of the combine can be effected'easily and conveniently from the operator's position on the tractor that propels the ma chine.

Further, another object of the present invention is the provision of new and improved driving connections for the various operating units of the thresher. For example, it is an object of the present invention to drive the threshing cylinder directly from the power take-ofl shaft which, in turn, is driven directly from the tractor motor.

Another feature of the present invention i{ the provision of means driving the stripper or separating cylinder directly from the threshing cylinder adjacent which it is mounted.

A further feature of the present invention is that of driving the platform canvases, the grain elevator, the feeder house conveyor, and the beater and vertical conveyor in the feeder house by means connected with the separating or stripper cylinder.

It is also an object of the present invention to drive the straw walkers, chaffer, and fan from the stripper or separating cylinder, and to drive the tailings elevator and the straw'spreader at the discharge ends of the straw walkers from the outer straw walker crank shaft.

By virtue of these particular features, a compact, yet efiicient, transverse thresher unit is provided which is especially advantageous in small combines and the like.

These and other objects and advantages of the present invention will be apparent to those skilled in the art after a consideration of the following detailed description of the preferred structural embodiment, taken in conjunction with the accompanying drawings.

In the drawings:

Figure 1 is a top view of a combine embodying the features of the present invention;

Figure 2 is an elevation of the machine shown in Figure 1, taken from the left side;

Figure-3 is an elevation of the rear end of the combine;

Figure 4 is a generally transverse section taken through the thresher substantially along the plane of the line 4-4 of Figure 2;

Figure 5 is a transverse view looking rearwardly, with certain parts in a section taken substantially along the line 55 of Figures 1 and 7;

Figure 6 is a view taken substantially along the line 8-6 of Figure 1, and illustrates the driving means for the reel and cutting mechanism;

Figure 7 is a section taken substantially along the line 1-1 of Figure 4, and shows the principal parts of the pivotally interconnected platform sections and elevator canvases;

Figure 8 is a section taken on an enlarged scale I along the line 8-8 of Figure 7, and showsthe combine chosen to illustrate the principles of the present invention comprises a transversely disposed frame I, a generally longitudinally disposed draft frame 2 extending forwardly at one end of The main frame of the combine includes a pair 7 of transversely disposed longitudinally spaced frame bars l0 and II (Figures 3 and 5) to which the lower ends of a series of front vertical bars l2 to I (Figure 5) and rear vertical bars I! to 22 are attached. The upper ends of the vertical bars are secured to an upper pair of transverse bars 24 and 24a, and other bars, cross braces and the like, as may be necessary, complete the frame.

The draft frame 2 consists of four generally longitudinally extending bars 25, 26, 21 and 20, the forward ends of which converge toward and are bolted to a gusset or hitch plate 29 to which a clevis 30 is fastened. The rear ends of the 'draft frame angle bars 21 and 28 are fastened to certain of the vertical angle bars and to a lower front horizontal bar 32 forming a part of the main frame, and as best shown in Figure 5, the upper bars 25 and 26 of the draft frame are fas-. tened to the upper part of the main frame, preferably to the upper portion of the vertical bar I! and the intermediate portion of the front upper horizontal frame bar 24. A diagonal reenforcing bar 35 (Figure 1) extends from the intermediate portion of th draft frame bar 28 across'under the other lower draft frame bar 21 to the right hand end of the main frame, preferably being attached to the right hand end of the lower horizontal frame bar 32 (Figure 5). The draft frame 2 also includes suitable cross bracing as may be necessary. A leg or standard 36 is pivoted, as at 31, to the front end of the draft frame and serves to support the front end of the machine when it is detached from the tractor. A small hook 38 or the like may be provided for holding the standard 38 in rearwardly folded position when the machine is in operation in the field.

The major portion of the weight of the machine is carried upon two air wheels and 48 that are disposed substantially directly under the transversely disposed main frame of the combine, in which the thresher operating units are carried as will be described later. It is to be understood, of course, that any type of wheel or any kindof supporting means may be provided if desired, but preferably, according to the principles of the present invention, the supporting means is so disposed as to carry practically all of the weight of the machine. As best indicated in Figures 1, 2, 3 and 5, the supporting wheels 45 and 46 are mounted'directly under the thresher unit4 by means of individual brackets and individual axles upon which the wheels are journaled and are disposed in laterally spaced relation underneath the lower frame bars "I and II. The bracket means for the left hand wheel 45 consists of an inner bracket 50 secured directly to one or both of the left hand vertical frame bars l6 and I8, and an axle bracket 5| is suitably secured, asbybolts, to the bracket 50. An outside supporting bracket 52 carries a left hand wheel axle bracket 53 and is in the general form of a triangular truss, the

lower member 55 of which extends forwardly and is bent inwardly, as at 55a (Figure 2), and is bolted at 56 to the lower longitudinal frame bar 28 of the draft frame 2. As best shown in Figure 2, the left hand wheel axle bracket 53 for the lefthand wheel 45 is secured to the rear end of the member 55, the other members 58 and 58 of the bracket 52 converging upwardly and secured in any suitable manner to the outermost end of the forward transverse frame bar I0.

The bracket means for the right hand wheel' 48 is similar to the bracket means for the wheel 45, and consists of right and left hand supporting brackets 50 and BI, each consisting of a generally U-shaped bar having its ends fastened in any suitable manner. to the frame bars I0 and II or to a pair of cross bars 64 and carried thereby. Each supporting bracket also includes a diagonal brace 88 (Figure 7). Wheel axle brackets 88 and 89 are carried, respectively, by the supporting brackets 80 and 8|, and an axle I0 is carried in the brackets 88 and 69 and receives the supporting-wheel 48. In a similar way, an.

axle II, upon which. the left hand wheel 45 is journaled, is carried in the axle brackets 5I and 53. It will be noted that by virtue of the above described construction, the wheels are independently and separately secured to the main frame in laterally spaced disposition, leaving an open or clear space between the wheels to accommodate various parts of the threshing mech-,

anism, as will be referred to later. It will also be noted, particularly from Figures 4 and 5, that the transverse frame bar 32serves not only to reenforce the inner wheel brackets but, in addition, is disposed forward of the'axis of the wheels and, In fact, is directly underneath the front edge of the main frame, and provides a convenient means for attaching certain of the operating parts that are suspended betweenthe wheels 45 and 46.

The harvester unit 3 comprises a cutter bar 80, areel 8|, and a pick-up conveyor 83, together with suitable driving mechanisms therefor." Re

ferring now more particularly to Figures 1 and 7, the harvester unit is disposed directly in front of the thresher unit 4 in substantial transverse .84 which, in turn, is rigidly connected to the main frame of the combine. The upper fixed platform section 84 consists of the usual side sheets or plates 88 and 89 and-a bottom sheet 90 which are reenforced as may be desired by suitable angles and the like. The lower platform or conveyor section 85 is similar, also consisting of side sheets 92 and 93 and a bottom sheet 94 which is reenforced by a truss framework, which is indicated in its entirety by the reference numeral 95 (Figure 7). veyor section '85 is pivotally connected at its upper end with the lower end of the fixed section 84, and to this end the reenforcing angle bar 95 (Figure 2), which is at the inner side of the fixed section 84, carries a bracket 91, there being a similar bracket at the opposite side of the harvester unit. The lower section 85 also has its lower edges reenforced by suitable angles I00, adjacent the upper ends of which brackets I 0| are fastened. These brackets overlap thebrackets 81 on the fixed conveyor section 84. The

The lower platform or conbrackets S'Itand I0I are aperture'd receive transverse shaft m, and this'shaft 10:3 serves, as a pivot connecting the lowerisectionfflito the fixed section 84 for generally vertical' mov'ea. m'ent with-respect'thereto. The side sheets",

lapping relation with respect .to the side sheets 92 and 83 of the lower section, as best indicated upon which-acanvas roller, 0 ismounted. A

second canvas roller III is'journaled for rotation at the lower end-ofthe pivoted platform or conveyor section 85,-adjacent the cutter bar 80, and a third canvas roller H2 is mounted at the upper end of the fixed platform or conveyor section on a shaft II3 which extends laterally outwardly at the right side of the machine (Figure 1) to receive a sprocket 4. A pair of parallel 2o platformcanvases H6 and I II: are trained over the rollersiIO, I II and H2, and each is provided H with the usual wooden slats II8 disposed tr'ansver'sely. While in the preferred form two can.- vases or conveyor-belts H8 and H1 are provided example, up to approximately six feet in width,- but the provision of two separate canvases or conveyor belts is desirable in conveyors of a width greater than six feet. It will be noted that since the pair of canvases I I6 and I I! pass around the intermediate roller IIO, the shaft I03 of which serves as the pivot axis for the platform sections 84 and 85, the vertical pivotal movement of the lower section does not disturb the operation of the conveyor canvases.

The'upper or grain conveying runs of the canvases are guided by suitable means carried by the side sheets 88and 89 and also by a central guide described below. Referring now more particularly to Figure 1, an angle I25 is fastened to 'the inside of each of the lower side sheets 92 and 93, and a similar guide angle may be fastened to the inside of each of the upper sheets 88 and 89, if desired. The laterally outer edges of the two canvases H8 and I" operate under and are I held in position by these guide angles I25 and I26. At the point adjacent the pivot axis of the lower "section 85 the upper portions of the lower side sheets 92 and 93 carry auxiliary guide angles I30 and I3I, the end portions I32 and I33 (Figure overlapping the adjacent edges of the upper runs The of the two canvas conveyors H6 and Ill. spacing between the strips I41 and I48 accommodate the Wooden slats II8, as best shown in Figure 8, and wear strips I 50 are fixed under both edges of the canvas conveyors I I6 and I H to reenforce the latter and also to increase the trac- V tion of the belts IIS and II! on the drums or. rollers II 0, III and H2. The movable platform section 85 is provided with a similarly constructed central guide member I45a (Figure '7) which has a central web M611. and spaced guide strips I4'Ia and 148a. Two overlapping flexible straps I52 and I53 are fixed to the lower strip I48a and embrace the lower end of the upper strip I 48 so that I [5 and 89 of the upper section are disposed in overtained at the desired tension by virtue of the shiftable mounting of the upper canvas roller II2. As best shown in Figure 7, the bearing means in which the ends of the roller shaft III are journaled is mounted for sliding movement in the side sheets and 00 of the fixed platform unit, and at each end of the roller H2 is a link I00, one end of each being pivoted to the associated'bearing block and the other end receiving the crank portion of a shaft Il that is mounted for rotation in the side sheets of the upper platform section and at one end is provided with a ratchet I62. A pawl I04 is pivoted to the side of the right hand sheet 00 and serves to hold the shaft IN, and hence the upper canvas roller I I2, in the desired position. One end of the shaft I" is formed with a handle I05 (Figure 1) so as to fa ilitate tensioning the canvases.

An up er canvas elevator or conveyor I10, having the usual slats III, is disposed above the lower canvas elevator or conveyor and about the upper edge thereof,- as best shown in Figure '7. Like the lower canvases, the upper canvas elevator may be made in either one or two sections, as desired. Preferably, however, and as shown in Figure 1, two sections operating side-by-side are provided, and these sections, indicated in Figure 1 by the reference numerals III and I12, pass around a pair of upper canvas rollers I15 and I (Figure '7) and about a lower drive roller I10 which is mounted on a shaft I10 that is journaled in suitable bearings I00 (Figure 6) in the side sheets 00 and 00, the bearings I00 being reenforced by suitable cross pieces IOI which are connectedwith the reenforcing angles 95. At its upper inner portion,

' the upper canvas elevator "'0 passes over and partially embraces the upper portion of the lower canvas elevator belts H6 and III, as best indicated in Figure 7. The upper runs of the upper elevator canvases I10 are supported by a transverse plate I04 attachedto the side sheets 00 and 09 by suitable angles I05 or the like.,

The upwardly moving lower stretch of the canvas elevator "0 lies loosely on the conveyor belts H0 and Ill and travels at the same speed, so that the upwardly traveling grain, cut by the sickle bar 00 and deposited onto the conveyors H0 and III by the reel BI, is held between the two elevators H6, H1 and I10 in the steep upper section of the harvester unit 3, the grain being discharged over the top of the upper roller H2 and into the feeder house of the threshing unit 4. As indicated in Figure 7, the upper strip I40 of the overlapping guide member I45 and that portion'of the central web I46 above the lower guide strip I" are terminated appreciably below the top of the conveyor so as to avoid rubbing of the upper canvas elevator Il0 thereon. However, the lower guide strip I41 and the web I46 supporting the same continue upwardly almost sickle bar 00 so as to vary the height of cutting.

The means for raising and lowering the platform or conveyor. section 05 will now be described. The sickle bar 80 is supported and moves over suitable guide fingers 200 (Figure 7) which in turn, are bolted to the forward flange of a'supporting Z-bar 20I which extends laterally from the inner side of the harvester unit 2, as indicated in Figure 1. An eye 202 is bolted to the extended end of the Z-bar 20I and receives the lower end of a vertically extending link 202, the

upper end of which is provided with a plurality of openings L205. An adjusting lever 2I0 is pivotally mounted on the inner end of an elongated bolt or rod 2 that is carried at the upper end of a strut 2I2 securely fastened to the draft frame bars 26 and 21 adjacent their forward ends. The rear end of the adjusting lever 2I0 is formed with a loop 2I5 which is apertured to receive the pivot end 2I6 of a removable member 2" which has a looped end 2I0 engageable over the lever 2 I0 for holding the member 2Il in position after it has been inserted in the selected one of the holes 205 in the upper end of the link 202 connecting the rear end of the lever 2I0 with the Z-bar 20I on the movable platform section 05. A sector 220 has one end secured to the upper end of the strut 2 I2 by the inner end of the bolt M I, which, as best shown in Figure 1, is extended laterally and is secured, as at 22I, to the horizontal flange of the upwardly extending left hand draft frame member 25. The other end of the sector 220 is connected by means of a bar 225 that, in turn, is bolted to the strut 2I2 at 220 and to the draft frame bar 26 at 221 (Figure 2). An elongated rod 230, one end of which is threaded and serves as a bolt connecting the sector 220 to the bar 225, is also fastened at 22I to the draft frame bar 25, and a secondrod 22I extends from the sector 220 to the inner draft are fastened to a plate 24I that is, in turn, ad-

justably anchored by a bolt 242 to a bracket 240 fastened to any convenient point on the threshing unit of the main frame, as for example, to the tailings, elevator 244. The lower ends of the balancing springs 240 are pivotally connected, as at 245 (Figure 2), with a lever 240. The lever 246 is pivotally connected at its inner end to a pin 24'! carried in any sutable manner at the lower end of a diagonal frame bar 248 that is fastened at its lower end to the rear end of the draft frame bar 21 by bolts 249 (Figure 5) and at its upper end to the bracket 243. The outermost end of the balancing spring lever 246 is connected by means of a rod 25I to the Z-bar 20I, as best shown in Figure 2. The tension in the springs 240 can be adjusted by tightening or loosening the bolt 242 connecting the plate 2 to the bracket 243, whereby it is possible to have the springs 245 support practically all of the weight of the adjustable platform section 05. It is to be noted that the end of the lever 240 between the bolt 245, at whichthe springs 240 are fastened to the lever 245, and the anchoring pivot 241 is arranged at approximately the same angle as the lower platform section 05 itself. By virtue of this construction, the effective lever arm at which the springs 246 act increases at substantially the same rate as the rate of increase of the effective lever arm between the center of gravity of the pivotal section 85 and the pivot axis I83 thereof.

The reel 8|, which is carried by and forms a part of the harvester unit 3, is also mounted for movement vertically. toward and away from the sickle bar 80. Referring now more particularly to Figures 1 and 6, the reel8l, which comprises a pair of spiders 265 and 266 carrying arms 261 and 268 (Figure 1) to the outer ends of which reel slats 210 are bolted, is mounted on a: reel shaft 21! to which the spiders 265 and 266 are securely clamped, and the shaft 211 is supported for rotation in a pair of laterally spaced journals 214 and 215 carried on a transverse bar 216. The latter is securely fastened, as by welding, to a generally vertically disposed sleeve 211, and a brace 218 extends diagonally from the lower portion of the sleeve to the inner portion of the journal supporting bar 216. Preferably, although not necessarily, the lower end of the diagonal brace bar 218 is welded to the lower end of the sleeve 211, and the upper end is welded to the laterally inner end of the bar 216. A Y-shaped arm 288 is pivoted, as at 28! (Figure 6), to a bracket 282 fastened to the inner platform angle 566 and terminates outwardly in laterally diverging sections 285 and 286 (Figure 1), the outer ends of which are pivoted in any suitable way to the journal carrying bar 216.

A pipe section 283 is extended through the reel supporting sleeve Zlll, and at its lower end is flattened and is pivoted on the inner end of a shaft 292 by means of a short sleeve 283 (Figure 3) which is mounted on the shaft 292. The latter shaft is supported in a bracket 235 fixed to the outer end of the Z-bar 26! and in a bracket (not shown) fastened to the lower end of the platform angle 66!) (Figure 6). The laterally outer end of the sleeve 233 carries 2. lug 281 to which a brace rod 266 is fastened and which extends generally upwardly to a bracket 368 welded to the pipe section 239 and to which the rod 268 is fastened, as by a bolt 361. Since the lower flattened end of the pipe 289 is welded to the inner end of the tubularsleeve 283 and the brace rod 298 is fastened at its upper end to the pipe 289 and at its lower end to the outer end of the sleeve 293, the reel carrying pipe member 288 is supported against lateral deflection but is permitted to have fore and aft rocking movement about the axis of the shaft 292.

The weight of the reel 8! and associated parts is balanced by a spring 3"! which is anchored at its upper end to a lug 3H welded to the pipe member 289, and at its lower end to a lever 3i2 that is fastened at its lower end to a second sleeve member 3l5 which is disposed about and journaled on the above mentioned sleeve 283. The outer end of the arm 3l2 is connected by means of a link 3l6 to a lug 3|1 fixed to the lower end of the reel carrying sleeve 211. Thus, the effect of the spring 3! 0 is to tend to swing the arm 3l2 in a counterclockwise direction (Figure 6) and to exert a thrust through the link 3; to raise the reel carrying sleeve 211, thereby substantially balancing the weight of the reel and associated parts.

The reel 8i may be raised and lowered by swinging the arm 3l2 upwardly or downwardly, the weight of the reel being balanced by the spring 3!!) at all times. An arm 325 (Figures 2 and 3) is-welded to the outer end of the outer sleeve 3l5, to which the arm M2 is welded at the inner end thereof, and extends upwardly at 326 (Figure 2) where it is pivotally connected to a generally longitudinally extending link member 321. The link; member 321 is extensible and comprises two adjustably connected parts 328 and 329, the latter being the section that is pivotally connected at 326 to the upper end of the reel adjusting arm 325. The forward end of the other link section 328 is connected, at 330, to an adjusting handle 33| that is mounted for movement on the forward end of the platform raising and lowering lever 210. The adjusting handle 33| includes a laterally shiftable detent 332 having an end 333 formed to engage in any one of a plurality of holes 334 formed in the forward end of the platform adjusting lever 2"]. Thus, by releasing the detent 332 from the hole 334 in which it is engaged, and shifting .the handle 33| forwardly or rearwardly along the platform adjusting lever 2"], the arm 325 will be rocked fore and aft about the shaft 292 as an axis, and this in turn will cause the arm 3|2 to exert a thrust through the link 316 to raise and lower the lever carrying sleeve 211 along the pipe 289. It is important to note that both the control for the height of cutting and the control for the position of the reel are not only mounted closely adjacent one another, but are within easy reaching distance of the operator on the tractor propelling the machine.

Reference was made above to the fact that the platform or conveyor 83 of the harvester unit A consists of two platform sections, the upper section 86 being fixed to the main frame of the harvester while the lower section is pivotally connected to the fixed upper section. The manner of attaching the upper section 66 will now be described. The bottom sheet 96 of the conveyor section 86 is bent rearwardly, as at 38a (Figure 9), to which portion a strap member 368 is rigidly secured, either by welding, rivets, or the like,

and an angle member 361 is also attached to the grain from lodging on the top edge of the frame.

The horizontal angle bar 24, formingthe upper forward edge of the main frame of the combine, is provided with a sheet metal angle 364 that is welded to the forward edge of the frame bar 24 and is provided with an upwardly turned edge 365. Bolts 366 are disposed in suitable openings in the parts 361, 368 and 24, and, when tightened, serve to securely connect the upper end of the fixed platform section 84 to the main frame of the combine. The purpose of the upturned forward edge 365 is to facilitate assembling the upper section 84 upon the forward edge of the main frame i of the machine; that is, by raising the upper section 84 into position and setting. the strap 366 UDOII thB flange piece 364, the edge 365 thereof holds the platform section in position until the bolts 366 can be inserted and the nuts 361 started thereon. The bottom support for the upper section 84 consists of a transverse angle 310 (Figure 7) which is fastened to the lower edge of the bottom sheet 96 and to a pair of longitudinal frame bars 3' which are extensions of certain of the cross bars of the main frame. After the upper end of the platform section 84 has been hooked over the flanged edge 365 and the bolts 366 inserted, the lower end is then bolted to the forward ends of the frame bars 311, and then the bolts 366 may be tightened. When this is done, the upper platform section 64 is rigidly secured in fixed position onto the main frame of the combine.

The reel 6| is driven from the left hand supporting wheel 46 by means of a sprocket 366 fixed to rotate with the wheel 46 and connected by means of a chain III with a sprocket 362 that is fixedly mounted on the outer end of a shaft 363. The latter is supported at its outer end in a bearing 364 carried on a bracket 365 that is fixed to the frame bar 55, as best shown in Figure 2, and at its inner end the'shaft 363 is supported in a bearing 366 fastened to the lower end of the frame brace bar 246. A sprocket 361 is mounted at the inner end of the shaft 363 and is connected therewith through a slip clutchof conventional construction. As best shown in Figure 6,

the sprocket 391 is connected by means of a sprocket chain 365 with a large sprocket 366 that is fixed to the inner endof the reel supporting shaft 21l. The tension of the sprocket chain 365 is maintained by means of an idler 331 that is mounted on an arm 361 pivoted on a bolt 366 on the reel supporting sleeve 211. The branch 265 of the reel arm 266 is also pivotally connected to the sleeve 211 at this point.

A spring 466 is connected with the sleeve 211 and the arm 361", and serves to exert a continuous force acting through the idler 396 against the chain 335 to maintain the proper tension therein, and also to take up the slack that occurs when the vertical position of the reel is adjusted, in-

asmuch as the reel shaft 21] is not coaxial with the axis 366 and because the shaft 363 is not coaxial with the pivot 261.

As has been referred to above, the threshing unit is mounted in a transverse position and occupies a space directly behind the harvester unit 3 and the draft frame 2, and has its parts supported on the main frame I so that, in effect, the latter forms the frame of the thresher unit 4. Referring now more particularly to Figure 4,

the harvester unit 4 consists of a feeder house 425 at the right hand end of the frame, and the forward portion of the feeder house 425 includes a hood section 426 (Figure '1) embracing the upper end of the harvester unit, there being an open space between the hood 426 and the apron 362 so as to accommodate the flow of grain .therethrough into the feeder house 425. The feeder house extends laterally over the full width of the harvester unit 3, and the left hand portion includes a feeder house conveyor 421 (Figure 4) which operates above a bottom wall 426 that is fastened to the thresher case sheets 436 and 43l by angles 432 or the like. The conveyor 421 is of the-usual endless belt type and is supported by pairs of sprockets carried on shafts 434 and-435. The conveyor 421 extends from the lefthand end wall 436 of the feeder house 425 to a point adjacent a threshing cylinder 446 that is carried on a threshing cylinder shaft 4 and journaled for rotation at one end of the threshing unit 4. It will be noted that the threshing cylinder 446 is disposed to the right beyond the end of the conveyor 421 so that the latter terminates at a point substantially adiacent to and on the same level as the upper portion of the cylinder 446. A vertically disposed 446 and 441. The vertical conveyor acts to push the feeder house conveyor 421 discharges material onto the upper portion of the threshing cylinder is a down beater 466 of the spiral type having arms 46I and 462 mounted at their inner ends on a beater shaft 463 that is journaled in the rear wall of the thresher unit with the free ends of the spiral arms extending forwardly in the feeder house. in Figures 1 and 3, the beater shaft 463 is supported for rotation by a journal 464 that is carried on an angle bar 465 that forms a part of the frame of the machine. The purpose of the beater 466 is to distribute the grain over the en- -20 tire axial length of the threshing cylinder. Without the beater 466 or its equivalent, there is a tendency for the grain to pile up at the rear wall of they feeder house, and the rotation of this beater, in a counterclockwise direction as viewed .in Figure 4, shifts the mass of grain forwardly so as to load the threshing cylinder uniformly. In this connection, the vertical beater 445 ccoperates therewith and acts to crowd the grain down upon the threshing cylinder to prevent it from clogging and bridging in the feeder house above the threshing cylinder. The formation of the beater arms 46I and 462 is such that they tend to clear themselves of stalks of grain rather than to permit the latter to become entangled and wrapped around the beater.

A grating 461 is fastened to the lower edge of the concaves 45l and extends in the general direction of the rotation of the threshing cylinder 446,as indicated in Figure 4. This grating consists of bars with suitably formed openings therein, and grate fingers 466 in the nature of parallel rods are secured to the edge of the grating 461 opposite the latters attachment to the concaves 45I. The grate fingers terminate under a separating or stripper cylinder 416 that rotates in the same direction as the threshing cylinder 446 and is provided with teeth "I that strip off any straw or other material that may tend to cling to theteeth 456 of the threshing cylinder 446. The grate fingers 466 at their outer ends overlie a. plurality of transversely disposed straw walkers 415, preferably three in number, two of which are shown in'Figure 4. The straw walkers 415 are of conventional construction and are supported on two crank shafts 416 and 411 journaled in any suitable manner for rotation on the thresher unit 4. For example, the crank shaft 411 is carried by bearing brackets 466 and 48I supported, respectively on the vertical frame bars 16 and I6 (Figures 3 and 5). Rotation of the crank shafts 416 and 411 sets up a reciprocatory motion of each of the straw walkers 415 which tosses the straw progressively toward the discharge end 482 of the thresher unit in a manner well known to those skilled in the art. During the progress of the straw in this manner, many kernels of grain are shaken loose and fall into either the combined chaffer and grain pan, described below, or are caught in the straw walker grain pans 483. v

The combined ohaifer and grain pan is indicated in its entirety-by the reference numeral 465 and extends transversely of the machine for substantially the entire length of the thresher Preferably, as best shownunit 4 from-a point underneath the concaves 45 i and the grating 461 to a point substantially undemeath the discharge ends of the straw walkers 415. The grain pan section, indicated by the reference numeral 486, receives the kernels that drop through the grating 461 and the grate fingers 468 and the kernels that are shaken loose from the straw by the right hand portions (Figure 4) of the straw walkers 415. The chaffer section 481 is in the nature of a screen having a pivoted terminal apron 488 whose angular position relative to the chafl'er section 411 may be adjustably fixed by a bolt 489 which, when tightened, serves to hold the terminal section 488 in the proper position. This section, like the chafier section 481, is also in the nature of a screen but has openings larger than the section'481.

The combined chaifer and grain pan 485 is supported on or includes side sheets 492 which are swung on a pair of vertically extending hangers 495 at the left hand end (Figure 4), and

at the other end are supported on brackets 496 carried on a rod or bar 491, the ends of which extend outside the thresher unit walls and swung thereon by arms 4% (Figure 3) and 499 (Figure 5) which are pivoted to brackets 58!! fastened to the frame bars id and H.

Beneath the combined chaffer and grain pan is a reciprocatory sieve unit 5i!) which includes side sheets 5i i, a grain-tight bottom Sit, and a sieve or screen Sit fastened to the side sheets 556 in any suitable manner. The sieve unit 5th is supported for rocking movement on pairs of hangers tilt and 585 (Figures 3 and 5), the upper ends of which are pivoted in bearings tie carried on the frame bars iii and ii. The fixed clean grain auger 520 is "disposed adjacent the lower end of the sloping bottom 5H2 of the sieve unit 5m and is provided with a hopper 5m to receive the clean grain from the unit did. The upper end of the sloping bottom 5i? of the sieve unit did is disposed adjacent a tailings auger 525 disposed in a suitable trough or hopper 52$ fixed to the frame of the thresher unit. The

clean grain auger 52b is mounted on a shaft 527! and the tailings auger is mounted on the second shaft 528.

The chaffer and'grain pan member 385, and the sieve unit 5H3, are given a continuous shaking movement by a crank shaft 539 that is supported in. suitable bearings 5M carried on the frame bars it and; ii. The crank shaft 53% is connected with the bar 491, upon which the right hand end of the grain pan and chaifer 885 is supported, by means of a connecting rod 532, best shown in Figure 4, and the shaft 530 is connected with the sieve unit 5!!! by a similar connecting rod 533. Theconnecting rod 532 preferably is connected with the associated crank portion of the shaft 530 by means ofa bearing block 535, and the other connecting rod 533 is fastened to the associated crank portion of the crank 530 by means of a bearing block 535. Thus, whenever the shaft 530 is rotated, the combined chafier and grain pan structure 455 and. the'sieve unit m are oscillated, as will be clear from Figure 4. The crank portions of the shaft 53d to which the connecting rods 532 and 533 are conneoted are disposed substantially 180 degrees apart, so that the motion of the sieve unit 510 is in opposition to the motion of the combined chafler and grain pan structure 485, thus minimizing the vibration transmitted to the thresher frame. The shaking movement of the combined chatter and grain pan structure 485 tends to toss 538 in Figure 3, and this elevator receives the clean grain and elevates the same upwardly into a grain bin 540 supported on top of the thresher unit by frame bars 54! directly over the thresher unit and to one end of the feeder house 46. The

bottom 542 of the grain bin slopes downwardly to a discharge gate 543 in the outer wall of the bin, and a pair of telescoping spouts 544 and 545, which are pivoted at 546 to the grain bin adjacentthe gate 543 and normally kept folded in the position shown in Figure 4; are adapted to be lowered and extended, as indicated by dotted lines in Figure 4, so as to empty the grain bin 540 by gravity and .to discharge the clean grain into a wagon, such as the one indicated at 541.

The tailings auger 525 isa part of the tailings elevator, indicated in its entirety by the ref-' erence numeral t lt, which receives the material that passes through the screen section 381 but which does not pass through the sieve 583, and conveys the grain upwardly and discharges the material into the feeder house iiiit and onto the feeder house conveyor 521 for passage through the thresher unit a second time.

The clean grain elevator 53% is disposed at a slight angle from the vertical, as best shown in. Figure 3, and has a fine sieve (not shown) on the under side thereof adjacent an enlarged portion in the form of a, trough $55. The sieve separates small weed seeds from the grain and delivers them through the trough 555 into a sack (not shown) that may be placed over hooks 556 mounted on the trough and supported by a platform 551 mounted; on the thresher unit 6 underheath the mouth of the trough 555. The clean grain elevator 538 extends up the rear side of the thresher unit, as best shown in Figure 3, while the tailings elevator extends up the forward side thereof, as'best shown in Figure 5.

Referring again to Figure a blower, indicated in its entirety by the reference numeral 5%, is carried underneath the frame bars it and H and is provided with a fan 5M and a fan housing 5&2 having a discharge end 5% that directs the blast of air along the screen section 481 and the sieve M3. The fan 55! is carried on a. fan shaft 556 which is journaied in suitable bearings carried by brackets 561 bolted or otherwise secured to the frame bars it and ii, as best shown in Figures 3 and 5. A screen 568 protects the intake portion or the front side of the fan housing 552, and a second screen (not shown) may be provided for protecting the rear intake opening. The fan housing discharge portion 563 is provided with a pivoted damper 'or deflector 515 that is mounted on a shaft 518 which has an end turned (Figure 3) to form a handle that cooperates with a notched plate 512 by which the discharge damper may be maintained in adjusted position for determining the volume of air delivered by the fan 58!. The volume of air is also controlled by two sets of intake dampers 5 14 and 515 which are mounted on interconnected pivot arms and held in position by chains 516 (Figure 3) which can be fastened over a hook or the like carried by the frame member Ii. The blast of air from the fan 55i, controlled by the dampers 515, 514 and 515, is driven along the sieve M3 and the screen 481, and separates the dust, chaff, and the like from the grain as the latter falls through the screen 481 and sieve 513 and into the clean grain auger 525. Such'dust, light chaff, and the like is discharged with the straw coming from the straw walkers 415 to the opening 482. A hood 555 is provided with hooks 581 which may be engaged over a flange on one of the frame bars, and if desired the hood 580 may be hooked oiotherwise secured to the upright angles i5 and I5. The hood 580 is so constructed that the straw, chaff, dust and the' like coming from the thresher unit is discharged in a downward direction. Ad- Jacent this point the thresher unit frame carries a pair of brackets 585 and 585 that are notched, as at 581 (Figure 5), to receive the transverse supporting bar 588 which forms a part of a straw spreader 598. The straw spreader 590 includes a rotatable vaned member 59l which is driven by gears enclosed in a housing 592 that extends from and is supported by a transverse member 588 above referred to. The gear box 592, together with the supporting member 588, forms a part of a pipe supporting frame 594for the straw spreader, and the member 588 and the pipe frame 594 carry arms 595 that are welded or otherwise secured to the end portions of the member, 588 and are adapted to be hooked under- 'neath lugs 595 that are carried on the supporting brackets 585 and 585. Thus, the straw spreader 595 may be, attached very conveniently and easily by insertin th p p rame member, and around another sprocket 522 558 into the slots 581 while moving the spreader at an angle so as to engage the arms underneath a the lugs 595. The removal of the straw spreader is effected by swinging the spreader about the axis of the pipe section 588 until the spreader can belifted out of the notches 581 and from underneath the lugs 595. The gears within the housing 592 are driven in any suitable manner from a shaft 598 that is mounted in coaxial relation with respect to the pipe frame member 588 and extends rearwardly of the latter, as best shown in Figure 3. a

It is to be noted that the sieve unit 5i2 with its clean grain auger 529, the tailings elevator auger 525, and the blower 558 are suspended below the frame bars l8 and .H and between the wheels 45 and 45' and under the body of the thresher unit. It is to provide space for these parts that the wheels 45 and 45 are individually and separately supported on the individual stub shafts 15 and 1i, instead of mounting the wheels on a through shaft, thus providing a-design that is compact and, in addition, has a low center of gravity that insures a stable machine.

Power for driving the operating parts of the combine, other than the drive for the reel, is derived from the tractor motor. The purpose of driving the reel from the implement wheel 45 is to maintain the peripheral speed of the reel substantially the same as, or slightly greater than, the rate of advance of the implement over the field for the purpose of obtaining the proper operation of the reel in laying the cut grain down on the platform elevator canvas. Referring now more particularly to Figures 1 and 2, the reference numeral 585 indicates the power take-off shaft which is driven from the tractor motor. The front end of the power take-off shaft 588 is supported by suitable bearing means 551' in a bracket 502 supported on one of the cross bars adjacent the forward end of the draft frame 2, and the intermediate portion of the power takeoff shaft 558 is supported by a bearing 553 (Fig-.

ure 1) that is fastened to one of the vertical -directly from the power take-off shaft 550. The

pulley Bill is mounted, as by a key or the like, on the rear end of the threshing cylinder shaft 44!, and at the forward end of this shaft a sprocket 5i I is fixed and receives a sprocket chain 5l2 that is trained over a sprocket 5l3 mounted on the separating cylinder shaft 412, whereby the separating or stripper cylinder 415 is driven from the threshing cylinder 440. The sprocket chain 5|2 also passes over anidler sprocket 5l5 by which the tension of the chain 5l2 can be adjusted. A second sprocket H8 is fixed to the forward end of the separating cylinder shaft 412 and receives a sprocket chain 5l9 that extends downwardly and passes over a sprocket 525 that is fixed to the clean grain auger shaft 521, by which the clean grain elevator is driven from the separating cylinder 415. The sprocket chain 5i9 extends upwardly over an idler sprocket 52i (Figures5 and 6) that is mounted on a shaft 523 that is journaled in and supported by a gear box 524 that is carried on a bracket 525 rigidly fastened to the main frame. Referring now to Figure 6, the gear box 524 contains a gear set that drives a transverse shaft 521 carrying a sprocket 528 around which a sprocket chain 529 is trained and which passes around a sprocket 530 thatis fixed to one end of the elevator conveyor shaft I53 which, it will be remembered, serves as the pivot axis for the relatively movable platform sections 84 and 85. An idler sprocket 53! serves to provide means for adjusting the tension of the driving sprocket chain 529.

Disposed about the roller shaft I03 and fixed to move with the lower platform section 85 is a second gear box 535 in which suitable gear means isdisposed and driven from the shaft I93 for the purpose of driving a sickle shaft 535. The shaft 535 is supported by suitable bearings carried in one 'wall of the gear box 535 and another bearing 531 supported by a bracket 538 (Figures 3 and 6) that is carried by the supporting 2- bar 2!. A crank 549 is carried at the lower end of the shaft 535 and is connected by means of pitman 5 with the left hand end of the sickle bar 50, as indicated at 542 in Figure 1 and in Figure 6. This end of the Z-bar 2M is reenforced by suitable braces 545 that are fastened at 545 and 541 to the lower end of the left hand platform sheet 93 and at their rear ends to a shoe 558 that is secured to the Z-bar 2M and.

walker crank shaft 'frame upon said bars,

wardly of their ends and tai or: on s d b ack ts and I, it will be seen that the driving mechanism for the cutter bar 80 accommodates itself to any position bf the lower section of the platform ll without universal joints or the like.

The beater 480, the vertical conveyor 5, and the feeder house conveyor 421 are also driven from the separating cylinder shaft 412. The shaft 412 carries a sprocket 880 (Figure 1) over which a sprocket chain 68! is trained. The chain Bil passes over a sprocket 662 fixed to the shaft 1 of the lower roller for the vertical conveyor 5,

around an idler sprocket 883 mounted adjacent the sprocket 882 and over a third sprocket 864 fixed to the beater shaft 463, as best shown in Figure 3. The chain 681 also passes over .idler sprockets Band 868, and, in addition, the chain Bil is trained over another sprocket 661 that is fixed to the rear end of the shaft I35 for the right hand conveyor roller for. the feeder house conveyor 21. The bracket supporting the idler sprocket 685 is shiftably fastened to the frame bar 465 so as to provide for adjusting the tension of the chain "I. The driving tension in the vertical conveyor 4" is adjustable by nut and bolt means 668 shown in Figures 3 and 5.

t A second sprocket, indicated by the reference numeral 815 in Figure 1, is fastened to the shaft 412 of the separating or stripper cylinder 410, and

a chain 816 is trained around thesprocket 618,

a sprocket 811 fixed to the outer end'of, a straw walker crank shaft 416, .a sprocke to the outer end of the shaft 530 that drives thecombined chaifer and grain pan is! and the reciprocatory sieve *unit I0, and around a third sprocket 819 fixed to one end of the fan shaft 586. Idler; sprockets "I and "2 provide for the proper position and tensioning of the chain 616.

The straw spreader 590 and the tailings elevator 550 are driven from the left-hand straw walker crank shaft 411 by means of a sprocket 885 that is fixed to the rear end of the straw chain 686 that fixed to the straw a sprocket 588 fixed to the is trained around a sprocket 881 spreader drive shaft 598 and rear end of the tailings auger shaft 528. Idler sprockets lfli and 892 maintain the chain 688 in the proper position, and a belt tightening idler 693 is carried on an arm 694 and serves to maintain the proper tension in the driving belt 609.

While we have described above the preferred construction in which the principles of the present invention have been embodied, it is to be understood that our inventionis not to be limited to the specific details shown and described, but that, in fact, widely difierent means'may be employed in the practice of the broader aspects of.

my invention. I

What we claim, therefore, and desire to secure by Letters Patent is: F

1. A combine comprising a transversely disposed thresher unit, a forwardly facing harvester unit, a frame supporting said units, and ground wheels-journaled on. said frame and disposed directly underneath said thresher unit and inwardly of the laterally outer ends thereof.

2. In a combine, a transverse main frame comprising upper and lower transverse bars spaced fore and'aft, thresher mechanism carried by said brackets connected with frame bars laterally inextending downwardly wheels mounted for rodi p cd thereb said spaced transverse therefrom, and ground t 18 fixed ing parts disposed above other operating parts carried below said bars and 411 and which receives a directly underneath said thresher mechanism so as to carry substantially all of the weight thereof.

3. A combine comprising a transversely disposed thresher unit, a frame supporting said unit, ground wheels journaled on said frame and disposed directly underneath said thresher unit and laterally inwardly of the ends therepf,a forwardly facing harvesterunlt connected to said thresher unit adjacent but laterally inwardly of one end thereof; and a forwardly extending draft hitch frame rigidly secured to said supporting frame adjacent butlaterally-inwardly of the other end of said thresher .unit- 4. A combine comprising a transversely disposed thresher unit, a forwardly facing harvester unit, a frame supporting said units, separate downwardly extending brackets spaced apart laterally and secured to said frame, and separate ground wheels individually mounted on said brsickets and directly underneath said thresher un t.

5. A combine comprising a main frame having transverse and vertical bars spaced fore and aft, a harvester unit carried at least in part on said frame, separate downwardly disposed brackets fastened to the ends of said transverse bars in laterallyspaced relation, ground wheels journaled for rotation on said brackets and connected thereby to said main frame other, and a thresher unit carried by said frame directly above said wheels and including operatsaid transverse bars and in the space between said ground wheels.

6. A combine comprising a transversely disposed thresher unit, a harvester unit connected on the forward side of said delivering material to the latter, a frame supporting said units, a grain bin carried by said frame directly above said thresher unit, an elevator carried on one side of said thresher unit between grain from the thresher unit upwardly into said grain bin above said thresher unit, and spout means for discharging said grain bin by gravity. 7. A combine comprising a generally transversely disposed main frame, ried thereby including a longitudinally disposed threshing cylinder and a transversely movable conveyor adapted to deliver material to said cylinder, and a harvester nally disposed platform elevator extending to points adjacent said conveyor and one end of said cylinder and arranged to deliver a part of the crop directly onto said threshing cylinder and the remainder directly onto said conveyor.

.8. A combine comprising threshing mechanism including a rotatable threshing cylinder, a conveyor for delivering material to said cylinder, a harvester unit including an elevator for raising said material from the ground and delivering said material to said conveyor, and a beater located substantially directly above said cylinder adjacent the point where said conveyor delivers material thereto, said beater being arranged to distribute said material across the cylinder.

9. A combine comprising a generally trans? versely disposed main frame, a thresher unit carried thereby including a longitudinally disposed threshing cylinder and a transversely movable conveyor adapted to deliver material to said cylinder, a harvester unit including a longitudinally disposed platform elevator extending to points adjacent one side of said transversely movable conveyor and one end of said cylinder, said thresher unit and independently of one an- 1 the ends thereof and adapted'to deliver athresher unit car- I unit including a longitudlthreshing cylinder mounted for rotation at one end of said feeder house, a feeder house conveyor extending from the other end of said feeder house to said cylinder and terminating at a point spaced from said'one end of the feeder house and adjacent and substantially at the same level as the upper portion of said threshing cylinder, whereby a portion of the material delivered into the feeder house falls directly onto said thresh- -ing cylinder and the ramainder of said material falls onto said conveyor and is delivered thereby to the upper portion of said threshing cylinder, and a spiral beater disposed substantially directly above said threshing cylinder for shifting the material reaching the threshing cylinder generally axially away from the material falling directly ontosaid cylinder from said platform elevator.

11. In a combine, a generally transversely disposed main frame, a longitudinally disposed threshing cylinder, a transversely movable conveyor adapted to deliver material to said cylinder and terminating adjacent to and substantially at the same level as the upper portion of said cylinder, the platform elevator arranged to discharge a portion of the material which it conveys directly onto said cylinder and theremainder onto said transversely movable conveyor, a beater located substantially directly above said threshing cylinder to distribute material along the same, and a separating cylinder disposed adjacent said threshing cylinder and adapted to engage the material after it has been acted upon by said threshing cylinder.

12. In a combine, a generally transversely disposed main frame, a longitudinally disposed threshing cylinder, a transversely movable conveyor adapted to deliver material to said cylinder and terminating adjacent to and substantially at the same level as the upper portion of said cylinder, the platform elevator arranged to discharge a portion of the material which it conveys directly onto said cylinder. and the remainder onto said transversely movable conveyor, a beater located substantially directly above said threshing cylinder to distribute material along the same, and a separating cylinder disposed adjacent said threshing cylinder and rotatable in the same direction so as to strip oil any material that tends to cling to said threshing cylinder.

13. In a combine, a main frame, a'harvester unit connected therewith and including a pair of pivotally connected platform sections, and means rigidly connecting the upper platform section to said main frame.

14. In a combine, a main frame, a harvester unit connected therewith and including a pair of pivotally connected platform sections, means rigidly connecting the upper platform section to said main frame, and means for raising and lowering the other platform section to vary the height of cutting.

15. In a harvester, a platform, a pair of platform elevators arranged side by side, means for driving said elevators in parallelism,and a stationary part carried by said platform and disposed between said elevators to prevent grain from lodging between the latter.

16. In a combine, a main frame having a top angle bar at the forward upper edge thereof, a harvester unit adapted to be detachably connected with said main frame and including a platform section housing a part at its upper end adapted to be hooked over said top angle bar in attaching said platform, and bolt means passing through said part and. said top angle member for fastening said platform in position.

17. In a, combine, a main frame, a harvester unit comprising an upper platform section rigidly connected with said main frame and a lower sec-' tion pivoted to said first section and having a transversely reciprocable cutter bar carried at the lower end thereof, means for raising and lowering said end of the lower platform section for varying the height of cut, and means for driving said outter bar including a gear box on said main frame, a second gear box disposed for rocking movement about the pivot axis of said platform sections, a

shaft extending from said second gear box to a point of connection with said cutter, and drive transmitting means connecting said gear boxes.

18. In a combine, a main frame, a draft hitch frame rigidly connected therewith, an elevating platform comprising two sections pivotally connected together, one of said sections being rigidly connected with said main frame and the other being movable generally vertically with respect to said first section, an adjusting lever pivotally mounted on said draft frame and connected to raise and lower said movable platform section, a reel mounted for rotation on said movable section, a lever for raising and lowering said reel relative to said movable section, and means for adjusting the position of said last named lever including a part movably carried on said adjusting lever.

19. In a combine, a main frame disposed generally transversely, a draft frame rigidly connected therewith at one end and extending generally forwardly, a forwardly disposed harvester unit including a generally vertically movable platform section carrying cutting mechanism, reel j erally forwardly and a rearwardly disposed section terminating adjacent the upper end of said rockably mounted lever, a link connecting the rear end of said adjusting lever with said platform section for raising and lowering the latter, link means extending from the upper end of said platform supported rockably mounted lever to a point adjacent the said end of said adjusting lever, and a shiftable handle part carried by said adjusting lever adjacent the forward end thereof and connected with said link means, whereby adjustment of the position of said adjusting handle part on said adjusting lever raises and lowers said reel mechanism relative to the vertically movable platform section substantially independently of the position relative to the draft form section has been placed by operation of said adjusting lever.

20. In a combine, a main frame disposed transframe that the platdriving said separating cylinder from said threshing cylinder, a grain tank, an elevator for elevating the clean grain into said tank. a harvester unit including cutting mechanism and means for driving the latter including a gear box mounted a grain elevator and said gear box from said separating cylinder.

22. In a combine, a,main frame, a threshing unit carried thereby and including operating parts, a power shaft for driving said operating parts, a harvester unit connected to said main frame and adapted to deliver material to said thresher unit and including cutting mechanism and conveyor means, a gear box carried by said main frame and connected to be driven by one of the operating parts of said threshing unit, and means for driving said cutting mechanism and conveyor means from said gear box.

23. In aharvester, a main frame, a grain elevating platform comprising a pair of pivotally interconnected upper and lower sections, means rigidly fastening the upper sectionto said frame, means for raising and lowering the lower section, rollers journaled at the upper and lower ends of said upper and lower sections, respectively, a third roller disposed in coincidence with the pivot axis of the lower section, and an elevator canvas fastened over said rollers in a position to accommodate the pivotal movement'of the lower section relative to the upper section while elevating grain.

24. In a harvester, a main frame, a draft frame connected with said main frame, a grain elevating platform including an adjustable section having cutting mechanism, a reel carried on said adjustable platform section and movable toward and away from said cutting mechanism, and means movably carried on said draft frame for raising and lowering said reel.

25. A combine comprising a generally transversely disposed main frame, a thresher unit carried thereby and including a longitud nally disposed threshing cylinder, a transversely movable conveyor adapted to deliver material to said cylinder, and a rotary beater, and a harvester unit including a longitudinally disposed pick-up elevator extending to points adjacent said conveyor and one end of said cylinder and arranged to deliver a part of the crop directly onto said threshing cylinder and the remainder directly onto said conveyor, said beater being located substantially directly above said cylinder adjacent the point where said elevator delivers material thereto and arranged to distribute said material across said cylinder.

26. A combine comprising a generally transversely disposed main frame, a thresher unit carried thereby and including a feeder house, a threshing cylinder mounted for rotation adjacent one end of said house, a feeder house conveyor for delivering material to the upper portion of said cylinder, a rotary beater mounted aboge said cylinder and adapted to bedriven so as to move the material onto said cylinder in substantially the same direction that it is moved by said feeder 5 house conveyor, and a vertical conveyor disposed adjacent said threshing cylinder on the sidev of said rotary beater opposite said feeder house conveyor and adapted to be driven in a direction to move material down upon the threshing cylinder 10 to prevent the material from clogging and bridging above the threshing cylinder, and a harvester unit including a transversely disposed'pickup elevator extending to points adjacent ,said

feeder house conveyor at one end of said cylinder w adjacent said vertical conveyor, said pick-up elevator being arranged to deliver a part of the crop directly onto said threshing cylinder and the remainder directly onto said conveyor.

27.-In a combine, the combination of a plug rality of straw walkers, means supporting said straw walkers for successive oscillation comprising a crank shaft at each end, a straw spreaden disposed at the discharge end of said straw walkers in a position to receive straw therefrom, means for driving said straw walkers connected to the crank shaft at the end of said straw walkers opposite said straw spreader, and means-for driving said straw spreader from the crank shaft adjacent thelatter so as to distributethe discharged straw during the travel of the combine.

28. In a combine, the combination of a rotatable threshing cylinder,'a conveyor for delivering material thereto, a plurality of straw walkers disposed to receive material after it has been acted upon by said threshing cylinder, means for supporting said straw walkers for oscillation, including a crank shaft at. each end, means for driving said threshing cylinder, conveyor and straw walkers, a straw spreader disposed to receive 40 straw discharged from said straw walkers, a tailings elevator for conveying material from below said straw walkers to said conveyor, and means for driving said straw spreader and said taillngs elevator from one of said straw walker crank 5 shafts, whereby the tailings are returned to the. threshing cylinder and the discharged straw isdistributed during the travel of the combine.

29. A combine compr sing a generally transversely disposed main frame, a harvester unit 5 carried by said frame and including a pick-up elevator extending to one end of said frame, 'a thresher unit carried by said main frame and including a plurality of straw walkers extending longitudinally of the main frame and transversely of the combine, means supporting said straw walkers for successive oscillation, comprising a crank shaft at each end of said frame, astraw spreader disposed at the discharge end of said straw walkers in a position to receive straw thereso,

from and. at the end of said frame opposite the end to which said pick-up elevator extends,-and means for driving said straw spreader from one of said crank shafts so as to distribute the straw discharged from said straw walkers during the travel of the combine.

30. A combine comprising a main frame, a thresher unit carried thereby and including a threshing cylinder and a movable conveyor adapted to deliver material to said cylinder, and a harvester unit including a platform elevator extending to points adjacent said conveyor and one end of said cylinder and arranged to deliver a part of the crop directly onto said threshing cylinder.

31. A combine comprising a main frame, a thresher unit carried thereby including a threshing cylinder and a transversely movable conveyor adapted to deliver material to the threshing cylinder, a harvester unit including a platform elevator extending to points adjacent said conveyorand one end of said threshingcylinder, said elevator being arranged to deliver a part of the crop directly onto said end of the threshing cylinder and the remainder directly onto said conveyor, and means disposed adjacent the threshing cylinder for shifting the material deposited on said end thereof toward the other end of the cylinder.

32. A combine comprising a main frame, a thresher unit carried thereby including a threshing cylinder and a transversely movable conveyor adapted to deliver material to the threshing/cylinder, a harvester unit including a platform elevator extending to points adjacent said conveyor and one end of said threshing cylinder, said elevator being arranged to deliver a part of the crop directly onto said end of the threshing cylinder and the remainder directly onto said conveyor, means disposed adjacent the threshing cylinder for shifting the material deposited on said end thereof toward the other end of the cylinder, and a generally vertically disposed conveyor disposed on the side of said last mentioned means opposite the transversely movable'conveyor and cooperating with said last mentioned means; for feeding material to the threshing cylinder.

33. In a combine, a generally transversely disposed main frame, a longitudinally disposed threshing cylinder, a transversely movable conveyor adapted to deliver material to said cylinder and terminating. adjacent to and substantially at the same level as the upper portion of said cylinder, the platform elevator arranged to discharge a portion of the material which it conveys directly onto said cylinder and the remainder onto said transversely movable conveyor, and a heater located substantially directly above said threshing cylinder to distribute material along the same.

34. In a combine, a generally transversely dis posed main frame, a longitudinally disposed threshing cylinder, a transversely movable con-- veyor adapted to deliver-material to said cylinder and terminating adjacentto and substantially at the same level as the upper portion of said cylinder, the platform elevator arranged to discharge a portion of the material which it conveys directly onto said cylinder and the remainder onto said transversely movable conveyor, and a separating cylinder disposed adjacent the threshing cylinder and underneath the end of the transversely movable conveyor which is adjacent said threshing cylinder.

35. In a combine, a main frame, a draft hitch frame rigidly connected therewith,-an elevating platform comprising two sections pivotally connected together, one of said sections being rigidly connected with said main frame and the other being movable generally vertically with respect to raise and lower said movable platform section, a reel mounted for rotation on said movable section, a lever for raising and lowering said reel relative to said movable section, and means for adjusting the position of said last named lever,

including a part movably carried on said adjusting lever. l a

37. In a combine, a main frame'disposed generally transversely, a draft frame rigidly connected therewith at one end and extending generally forwardly, a forwardly disposed harvester unit including a generally vertically movable platform section carrying cuttingmechanism, reel mechanism supported on said movable platform section for movement toward and away from said cutting mechanism, means on said movable platform section for raising and lowering the reel mechanism and including a generally upwardly disposed rockably mounted lever, an adjusting lever for raising and lowering said generally vertically movable "platform section and including an operating handle section disposed generally forwardly and a rearwardly disposed, section terminating adjacent the upperend of said rock-L ably mounted lever, means connecting saidrearwardly disposed section to said generally vertically movable platform section,- and means shiftable longitudinally of said adjusting lever able section having a sickle supporting bar at the lower edge thereof and extending'laterally of the platform toward said hitch frame, and an adjusting lever pivotally mounted on said hitch frame- -and operatively connected to the extended end of said sickle supporting bar for raising and lowering said movable platform section.

t 39. A combine comprising a main frame, a draft hitch frame rigidly connected therewith at one side, an elevating platform connected with the main frame at the other side thereof and disposed adjacent the hitch frame, said elevating platform comprising a generally vertically movable section having a sickle supporting bar at the lower edge thereof and extending laterally of the platform toward said hitch frame, a reel for said movable platform section, a laterally rigid supporting member carrying said reel and connected at its lower end to the extended end of said sickle supporting bar at laterally spaced points'thereof, and means carried by said hitch frame for adjusting the position of said reel.

40. A combine comprising a main frame, a

draft hitch frame rigidly connected therewith at one side, an elevating platform connected with the main frame at the otherside thereof and disposed adjacent the hitch frame, said elevating platform comprising a generally vertically movable section having a sickle supporting bar at the lower edge thereof and extending laterally of the platform toward said hitch frame, and means connected with said main frame and reacting against said hitch frame and the extended end of said sickle supporting bar for counterbalancing the weight ofsaid movable platform section. Y

41. A combine comprising a main frame, a

one side, an elevating platform connected with the main frame at the other side thereof and,

disposed adjacent the hitch frame, said elevating platform comprising a generally vertically movable section having a sickle supporting bar at the lower edge thereof and extending laterally of the platform toward said hitch frame, a reel disposed above the lower edge of the movable platform section, reel supporting means including a generally vertically extending laterally rigid member pivoted at its lower end to the extended portion of said sickle supporting bar at laterally spaced points thereon, and means counterbalancing the weight of said movable section and the reel supported thereon comprisingspring means ,operatively connected at its upper end to said main frame and at its lower end with the extended' end of said sickle supporting bar.

42. A combine comprising a main frame, a draft frame rigidly connected therewith at one side, an elevating platform disposed at the other side of said main frame adjacent the draft frame and including a generally vertically movable platform section having a sickle supporting bar at its lower end extending laterally at the movable platform section to a point adjacent the draft frame, and counterbalancing means for supporting the weight of said movable section, comprising a spring biased lever pivoted at one end to the draft frame and operatively connected at its other end to the extended end of said sickle supporting bar.

43. A combine comprising a main frame, a draft frame rigidly connected therewith and extending forwardly therefrom at one side, an elevating platform disposed at the other side of said main frame and extending forwardly alongside the draft frame, said elevating platform comprising a generally vertically movable section having a sickle supporting bar at its lower end extending laterally toward said draft frame, a reel disposed above the lower edge of said movable platform section, a reel supporting member pivotally connected at laterally spaced points to said extended end of the sickle supporting bar and extending vertically therefrom, a supporting yoke movably mounted on the upper end of said member and having laterally spaced sections receiving said reel, a laterally rigid brace pivoted at its upper end to said yoke and at its lower end to said movable platform section, counterbalancing means acting between said reel supporting member and said yoke for holding the reel in elevated position, and means movably mounted on said draft frame adjacent the forward portion thereof for raising and lowering said reel relative to said sickle supporting bar.

44. A combine comprising a transverselydisposed thresher unit, a forwardly facing harvester unit, a frame supporting said units, separate brackets spaced apart laterally and secured to said frame at the under side thereof, separateground wheels individually mounted on said brackets and directly underneath said thresher unit, and mechanism disposed on the underside of said frame and between said individually mounted wheels,

45. In a combine, a transverse main frame comprising transverse bars spaced fore and aft, thresher mechanism carried by said frame upon said bars, brackets connected with said spaced transverse frame bars laterally inwardly of their ends and extending downwardly therefrom,

rotation on said ground wheels mounted for brackets and disposed thereby directly underneath said thresher mechanism so as to carry substantially all of the weight thereof, and operating units carried below said transverse bars and between said wheel brackets.

46. A combine comprising a transversely disposed main housin rain separating mechanism disposed within said housing, ground wheels disposed directly underneath said housing. and inwardly of the laterally outer ends'thereof, and

means for supporting said housing on said wheels.

47. A combine comprising a frame, a transversely disposed main housing supported thereon, grain separating mechanism disposed within said housing, separate brackets spaced apart laterally and secured to said frame at the under side thereof, separate ground wheels individually mounted on said brackets and directly underposed on the underside of said frame and between said individually mounted wheels.

48. A combine comprising a thresher unit inneath said main housing, and inechanism diseluding a transversely disposed main housing and threshing and separating mechanism disposed therein, a forwardlyfacing harvester unit arranged to deliver harvested material into said housing, a frame supporting said units, and ground wheels Journaled on said frame and disposed directly underneath said transversely disposed main housing.

49. A combine comprising a transversely disposed separator housing, grain separating iechanism disposed therein and a threshing cylinder Journaled in one end thereof for rotation about a fore and aft extending axis, a forwardly facing harvester unit connected with said separator housing, a frame supporting said housing, and ground wheels iournaled on said frame and disposed directly underneath said separator housing and inwardly of the laterally outer ends thereof.

50. In a combine; a feeder house, a threshing cylinder mounted for rotation at one end of said feeder house, a. feeder house conveyor extending from the other end of said feeder house to said cylinder and terminating at a point spaced from said one end of the feeder house and adjacent and substantially at the same level as the upper portion of said threshing cylinder, and a platform elevator for raising harvested material from and a lower elevator section pivotally supported from said upper section and movable vertically relative thereto.

51. A combine comprising a transversely disposed wheel supported main housing, grain separating mechanism disposed therein, .a threshing cylinder journaled in one end of said housing for rotation about a fore and aft extending axis, a feeder house disposed above said cylinder and extending laterally inwardly above said separating mechanism, a feeder house conveyor terminating near the upper portion of said cylinder and extending inwardly therefrom across the lower portion of said feeder house, a platform elevator comprising upper and lower sections pivoted together on a transverse pivot axis, said upper sec- 3.114 I gloom: .A

" supported rigidly with respect-tome at the 1am end thereoi-snd means for m h feeder house and arranged to discharge a portion lusting said lower portion about said pivot axis of the hsrvestedmsterial raised from the ground to adjust the height of cut. 1 I directly upon said threshing cylinder and the 5 remainder of saidmeterisl m1; upon said con- ALVIN W. cm, a veyor end is delivered thereby to said cylinder, RALPH L. ANDERSON.

seidlower elevator portion having e outter bar v r LOUIS A. PARADISE. 

